Download CU 211 and 212

GRUNDFOS INSTRUCTIONS
CU 211 and CU 212
Installation and operating instructions
Declaration of conformity
Declaration of conformity
Declaration of Conformity
We Grundfos declare under our sole responsibility that the products
CU 211 and CU 212, to which this declaration relates, are in conformity
with these Council directives on the approximation of the laws of the EC
member states:
— Low Voltage Directive (2006/95/EC)
Standard used: EN 60335-1: 2002.
— EMC Directive (2004/108/EC)
Standards used: EN 61000-6-2: 2005 and EN 61000-6-3: 2007.
Bjerringbro, 15th September 2008
Jan Strandgaard
Technical Director
2
CONTENTS
English (GB)
English (GB) Installation and operating instructions
1. Symbols used in this document
Page
Warning
If these safety instructions are not observed,
it may result in personal injury!
1.
Symbols used in this document
3
2.
2.1
2.2
2.3
General description
Control panel
DIP switch
Dimensions
3
4
4
5
Caution
3.
3.1
3.2
Identification
Nameplate
Type key
5
5
5
If these safety instructions are not observed,
it may result in malfunction or damage to the
equipment!
Note
Notes or instructions that make the job easier
and ensure safe operation.
4.
Application
5
5.
5.1
6
5.4
5.5
5.6
5.7
5.8
Functions
Two float switches and parallel operation with three
float switches
Three float switches and parallel operation with four
float switches
Four float switches and parallel operation with 100 %
standby operation
Four float switches and parallel operation
Two electrodes
Three electrodes
Three electrodes and one float switch
Flow switch
10
12
14
16
18
20
6.
6.1
Installation
Location
22
22
7.
Electrical connection
22
8.
Overview of terminals
23
9.
9.1
9.2
9.3
9.4
9.5
9.6
9.7
9.8
9.9
9.10
Wiring diagrams CU 211
CU 211, single-phase, inputs
CU 211, single-phase, outputs
CU 211, single-phase, inputs from IO 111
CU 211, single-phase, outputs for modem
CU 211, single-phase, outputs for CIU 270
CU 211, three-phase, inputs
CU 211, three-phase, outputs
CU 211, three-phase, inputs from IO 111
CU 211, three-phase, outputs for modem
CU 211, three-phase, outputs for CIU 270
24
24
25
26
27
28
29
30
31
32
33
10.
10.1
10.2
10.3
10.4
10.5
10.6
10.7
10.8
10.9
10.10
Wiring diagrams CU 212
CU 212, single-phase, inputs
CU 212, single-phase, outputs
CU 212, single-phase, inputs from IO 111
CU 212, single-phase, outputs for modem
CU 212, single-phase, outputs for CIU 270
CU 212, three-phase, inputs
CU 212, three-phase, outputs
CU 212, three-phase, inputs from IO 111
CU 212, three-phase, outputs for modem
CU 212, three-phase, outputs for CIU 270
34
34
35
36
37
38
39
40
41
42
43
11.
Maintenance
44
12.
Service
44
13.
Disposal
44
5.3
These instructions must be observed for
explosion-proof pumps. It is advisable also to follow these instructions for standard pumps.
6
8
2. General description
The control units CU 211 and CU 212 are designed for control of
pumps in wastewater, water supply and draining systems.
CU 211 is designed for control of one pump and CU 212 of two
pumps.
CU 211 and CU 212 have an alarm output for common alarm and
an alarm output for separate high-level alarm.
Furthermore, the control units incorporate a buzzer.
1
3
4
5
6
CU 212
1
2
1
2
10
ON
DIP
1 2 3 4 5 6 7 8 9 10
7
Fig. 1
Pos.
8
9
CU 212
Description
1
Input terminals for AC and DC level switches.
2
Input terminals for DC level switches.
3
Input terminals for alarm from pump sensors and motor
protector.
4
Terminals for accumulator.
5
Output terminals for high-level alarm with NO/NC
contact. See section 8. Overview of terminals.
6
Output terminals for common alarm with NO/NC contact.
See section 8. Overview of terminals.
7
Input terminals for supply voltage.
8
Output terminals for pump 1 and pump 2.
For CU 211 there is only an output for one pump.
9
DIP switch. See section 2.2 DIP switch.
10
Control panel. See section 2.1 Control panel.
Warning
Prior to installation, read these installation and
operating instructions. Installation and operation
must comply with local regulations and accepted
codes of good practice.
2
TM04 2744 2908
5.2
Warning
3
2.2 DIP switch
2.1 Control panel
CU 212
234
CU 211 and CU 212 have a 10-pole DIP switch positioned in the
bottom right corner. See fig. 3.
6
Caution
1
2
12
11
10
9
8
5
1
2
7
Fig. 2
When setting the DIP switch, the control unit
must have been switched off for at least 1 minute.
Each individual switch (1 to 10) of the DIP switch can be set to
position OFF or ON.
TM01 6397 3902
English (GB)
1
Note
The DIP switch must not be set to other switch
combinations than those described in section
5. Functions.
Control panel CU 212
Key to the symbols in fig. 2:
1
Green indicator lights for pumps 1 and 2; flashing for
start delay, shining for pump operation.
CU 211 has only one indicator light.
2
Red indicator lights for pumps 1 and 2;
flashing for thermo fault, shining for fault in motor
protector.
CU 211 has only one indicator light.
3
Red indicator light; indicating wrong phase sequence
(three-phase pumps only).
4
Red indicator light; shining for common alarm.
5
ON-OFF-AUTO selector switch for pump 1.
6
ON-OFF-AUTO selector switch for pump 2.
CU 211 has no selector switch for pump 2.
7
Reset button. Push-button for manual resetting of
external alarm devices and the built-in buzzer.
See section 2.1.1 Resetting of alarm.
8
Orange indicator light; shining for liquid level 1.
See section 4. Application.
9
Orange indicator light; shining for liquid level 2.
See 4. Application.
10
Orange indicator light; shining for liquid level 3.
See section 4. Application.
11
Orange indicator light; shining for liquid level 4, flashing
for high-level alarm. See section 4. Application.
12
Green indicator light; shining when the power supply has
been switched on.
2.1.1 Resetting of alarm
The reset button is a push-button for manual
resetting of external alarm devices and the built-in
buzzer. The button is NOT for resetting of alarm
indications; do this by means of the ON-OFFAUTO selector switch.
Even if the fault condition still exists, the external
alarm devices and the built-in buzzer will be reset
when the reset button is pressed.
4
TM01 6870 23087
Pos. Description
Fig. 3
DIP switch setting
English (GB)
2.3 Dimensions
Min. 30 mm
90 mm
66.5 mm
CU 212
1
2
1
116 mm
2
ON
DIP
1 2 3 4 5 6 7 8 9 10
Min. 30 mm
TM04 2745 2908
35 mm DIN rail (EN 50 022). Recommended depth: 7.5 mm
Fig. 4
Dimensional sketch of control unit and DIN rail
3. Identification
3.2 Type key
3.1 Nameplate
Example
The nameplate is fitted on the side of the control unit.
Grundfos control unit
Type
2
Product No.
3
UN
4
PMAX
CU212.230.1
Serial No.
0003
9
VCONTACT MAX
400V
8
ICONTACT MAX
2A
7
96458113 V06
1 x 230 V~ 50/60 Hz
3W
0751
TMAX AMB: -30 to 50°C
IP20
Made in Denmark
5
Fig. 5
6
Nameplate, CU 212
Key to the nameplate:
Pos.
212 .230
.1
Variant designation
211
212 1)
10
P.c.
Voltage [V]
TM04 2633 2808
1
CU
Phases:
1 = single-phase
3 = three-phase
1)
211 = single-pump control
212 = two-pump control.
4. Application
CU 211 and 212 can be used for level control in a wide range of
industrial, private and public applications.
Description
Examples:
1
Type designation
•
tanks in industry
2
Product number
•
wastewater collection tanks
3
Rated voltage and frequency
•
lifting stations (with more than one pump).
4
Max. power
5
Enclosure class
6
Max. ambient temperature
7
Contact current
CU 212 can be set to operation/control in four different
applications.
8
Contact voltage
See section 5. Functions for additional information.
9
Serial number
10
Production code (year-week code)
CU 211 can be set to operation/control in seven different
applications.
5
This section describes a number of systems for which CU 211 and CU 212 are designed and the associated DIP switch settings.
5.1 Two float switches and parallel operation with three float switches
Use CU 211 in systems with one pump and two float switches.
The pump is controlled by the liquid level in the tank.
Use CU 212 in systems with two pumps in parallel operation and
three float switches. The pumps are controlled by the liquid level
in the tank.
– When the float switch, pos. 1, is lifted up by the liquid, the
pump is started.
– When the float switch, pos. 1, is lifted up by the liquid, the
first pump is started.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the settable stop delay sets in, and after that the
pump is stopped.
– When the float switch, pos. 2, is lifted up by the liquid, the
second pump is started.
– When the float switch, pos. 2, is lifted up by the liquid, the
high-level alarm is activated.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the settable stop delay sets in, and after that both
pumps are stopped.
– The pumps alternate automatically.
– When the float switch, pos. 3, is lifted up by the liquid, the
high-level alarm is activated.
2
1
Fig. 6
6
Systems with one pump and two float switches
Fig. 7
TM04 2750 2908
3
2
1
TM04 2749 2908
English (GB)
5. Functions
Systems with two pumps in parallel operation and
three float switches
English (GB)
5.1.1 DIP switch setting
The DIP switch settings apply to both system types and to both CU 211 and CU 212.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Two float switches.
CU 212: Parallel operation with three float switches.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with these system types, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has cut out the pump.
However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
7
5.2 Three float switches and parallel operation with four float switches
– When the float switch, pos. 2, is lifted up by the liquid, the
pump is started.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the pump is stopped. It is possible to set a stop delay
which delays the stop of the pump.
– When the float switch, pos. 3, is lifted up by the liquid, the
high-level alarm is activated.
Use CU 212 in systems with two pumps in parallel operation and
four float switches. The pumps are controlled by the liquid level in
the tank.
– When the float switch, pos. 2, is lifted up by the liquid, the
first pump is started.
– When the float switch, pos. 3, is lifted up by the liquid, the
second pump is started.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the settable stop delay sets in, and after that both
pumps are stopped.
– The pumps alternate automatically.
3
4
4
3
3
2
2
1
1
2
1
Fig. 8
8
Systems with one pump and three float switches
Fig. 9
TM04 2748 2908
– When the float switch, pos. 4, is lifted up by the liquid, the
high-level alarm is activated.
TM04 2746 2908
English (GB)
Use CU 211 in systems with one pump and three float switches.
The pump is controlled by the liquid level in the tank.
Systems with two pumps in parallel operation and four
float switches
English (GB)
5.2.1 DIP switch setting
The DIP switch settings apply to both system types and to both CU 211 and CU 212.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Three float switches.
CU 212: Parallel operation with four float switches.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with these system types, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
9
5.3 Four float switches and parallel operation with 100 % standby operation
Use CU 212 in systems with two pumps in parallel operation and
four float switches with 100 % standby operation. The pumps are
controlled by the liquid level in the tank.
– When the float switch, pos. 3, is lifted up by the liquid, the
pump is started.
– When the float switch, pos. 2, is no longer lifted up by the
liquid, the pump is stopped. It is possible to set a stop delay
which delays the stop of the pump.
– When the float switch, pos. 4, is lifted up by the liquid, the
high-level alarm is activated.
– When the float switch, pos. 2, is lifted up by the liquid, the
first pump is started.
– When the float switch, pos. 3, is lifted up by the liquid, the
second pump is started.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the settable stop delay sets in, and after that both
pumps are stopped.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the dry running alarm is activated.
– The pumps alternate automatically.
4
3
2
1
Fig. 10 Systems with one pump and four float switches
10
4
3
2
1
Fig. 11 Systems with two pumps in parallel operation with
100 % standby operation and four float switches
TM04 2746 2908
– When the float switch, pos. 4, is lifted up by the liquid, the
high-level alarm is activated.
TM04 2747 2908
English (GB)
Use CU 211 in systems with one pump and four float switches.
The pump is controlled by the liquid level in the tank.
English (GB)
5.3.1 DIP switch setting
The DIP switch settings apply to both system types and to both CU 211 and CU 212.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Four float switches.
CU 212: 100 % standby operation.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with these system types, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
11
5.4 Four float switches and parallel operation
– When the float switch, pos. 3, is lifted up by the liquid, the
first pump is started.
– When the float switch, pos. 4, is lifted up by the liquid, the
second pump is started.
– When the float switch, pos. 2, is no longer lifted up by the
liquid, the second pump is stopped.
– When the float switch, pos. 1, is no longer lifted up by the
liquid, the first pump is stopped.
It is possible to set a stop delay which delays the stop of the
pumps.
– The pumps alternate automatically.
4
3
2
1
Fig. 12 Systems with two pumps and four float switches in
parallel, full-control operation
12
TM04 2748 2908
English (GB)
Use CU 212 in systems with two pumps and four float switches in
socalled "full-control operation". The pumps are controlled by the
liquid level in the tank.
English (GB)
5.4.1 DIP switch setting
The DIP switch settings apply to CU 212.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 212: Four float switches in parallel, full-control operation.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with this system type, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
13
5.5 Two electrodes
– The electrode, pos. 1, is a reference electrode.
– When the electrode, pos. 2, registers liquid, the settable
start delay sets in, and after that the pump is started.
– When the electrode, pos. 2, no longer registers liquid, the
pump is stopped.
– The pressure switch, pos. 3, will stop the pump if the pump
discharge pressure exceeds the pressure switch cut-out
pressure. The pump will restart automatically when the
pressure falls to the pressure switch cut-in pressure if the
electrode, pos. 2, also registers liquid.
3
2
1
Fig. 13 System with one pump and two electrodes
14
TM04 2751 2908
English (GB)
Use CU 211 for systems with two electrodes. The pump is
controlled by the liquid level in the borehole.
English (GB)
5.5.1 DIP switch setting
The DIP switch settings apply to CU 211.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Two electrodes.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6, 7 and 8: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
1 min.
30 min.
2 min.
35 min.
3 min.
40 min.
5 min.
45 min.
10 min.
50 min.
15 min.
55 min.
20 min.
60 min.
25 min.
65 min.
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
15
5.6 Three electrodes
– The electrode, pos. 1, is a reference electrode.
– When the electrode, pos. 3, registers liquid, the pump is
started.
– When the electrode, pos. 2, no longer registers liquid, the
pump is stopped. It is possible to set a stop delay which
delays the stop of the pump.
– The pressure switch, pos. 4, will stop the pump if the pump
discharge pressure exceeds the pressure switch cut-out
pressure. The pump will restart automatically when the
pressure falls to the pressure switch cut-in pressure if the
electrode, pos. 3, also registers liquid.
4
3
2
1
Fig. 14 System with one pump and three electrodes
16
TM04 2752 2908
English (GB)
Use CU 211 for systems with three electrodes. The pump is
controlled by the liquid level in the borehole.
English (GB)
5.6.1 DIP switch setting
The DIP switch settings apply to CU 211.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Two electrodes.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with this system type, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
17
5.7 Three electrodes and one float switch
– The electrode, pos. 1, is a reference electrode.
– When the electrode, pos. 2, no longer registers liquid, the
pump is started.
– When the electrode, pos. 3, registers liquid, the pump is
stopped. It is possible to set a stop delay which delays the
stop of the pump.
– When the float switch, pos. 4, is lifted up by the liquid, the
high-level alarm is activated.
– The pump can be stopped by means of the manual on/off
switch, pos. 5.
Note
The three electrodes may be replaced by float
switches.
3
2
1
TM04 2753 2908
English (GB)
Use CU 211 in systems with three electrodes and one float switch
in applications such as tank filling. The pump is controlled by the
liquid level in the tank.
Fig. 15 One pump, three electrodes and one float switch in a
tank filling system
18
English (GB)
5.7.1 DIP switch setting
The DIP switch settings apply to CU 211.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Three electrodes and one float switch in a tank filling system.
•
Switch 4: Start delay and automatic test run
This setting activates a start delay in the range from 0 to 255 sec. (random) after the power supply has been
switched on.
Automatic test run is carried out every 24 hours.
This setting causes the pump to start immediately after the mains supply has been switched on.
No automatic test run.
•
Switches 5, 6 and 7: Stop delay
The stop delay is the time from the stop signal is given until the pump is stopped.
The pump must not run dry.
•
0 sec.
60 sec.
15 sec.
90 sec.
30 sec.
120 sec.
45 sec.
180 sec.
Switch 8:
Switch 8 has no function in connection with this system type, but keep the setting in this position.
•
Switch 9: Alarm resetting
This setting ensures that alarm signals from external alarm devices and the built-in buzzer are reset
automatically. However, an alarm signal will only be reset if the cause of the fault no longer exists.
At this setting, the alarm signal must be reset manually by means of the reset button.
See section 2.1.1 Resetting of alarm.
•
Switch 10: Restarting
This setting enables automatic restarting after the motor PTC resistor/thermal switch has caused the pump to cut
out. However, restarting will not happen until the motor has cooled off again.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
This setting requires the pumps to be restarted manually after the motor PTC resistor/thermal switch has caused
the pump to be cut out. Reset by means of the ON-OFF-AUTO selector switch.
Warning
When the pump(s) connected is (are) used in potentially explosive environments,
switch 10 must not be set to this position.
19
5.8 Flow switch
– The pump is stopped when the flow switch, pos. 2, registers
that there is no liquid flow.
– When the pump has stopped, a settable start delay sets in,
and after that the pump will try to restart. The restart attempt
will be interrupted when the settable dry running time has
elapsed if the flow switch still does not register flow.
– The pump can be restarted manually by means of the
switch, pos. 1.
TM04 2754 2908
English (GB)
Use CU 211 in systems controlled by a flow switch in applications
such as draining systems. The pump is controlled by the flow in
the discharge line.
Fig. 16 Flow switch in a draining system
20
English (GB)
5.8.1 DIP switch setting
The DIP switch settings apply to CU 211.
•
Switches 1, 2 and 3: System type
This setting encodes the system type.
CU 211: Flow switch in a draining system.
•
Switches 4, 5 and 6: Dry running time
The dry running time is the time the pump is allowed to run after start even if the flow switch registers no flow.
The pump is stopped again if the flow switch still does not register flow.
•
10 sec.
2 min.
20 sec.
3 min.
40 sec.
4 min.
1 min.
5 min.
Switches 7, 8, 9 and 10: Start delay
The start delay is the time from the pump stopped until the pump attempts to restart.
No restart *
15 min.
1 min.
17 min.
2 min.
20 min.
3 min.
25 min.
5 min.
30 min.
7 min.
50 min.
10 min.
70 min.
12 min.
90 min.
* If the DIP switch was set to "no restart", the pump kan only be restarted by means of the switch.
21
Mounting and removal
Before installation, check these points:
CU 211 and CU 212 are designed for mounting on a 35 mm DIN
rail (EN 50 022).
•
does the variant correspond to the one ordered?
•
does CU 211/CU 212 match the supply voltage and frequency
of the installation site?
•
has CU 211/CU 212 been damaged during the transport?
Mount CU 211 and CU 212 in this way:
1. Hold the bottom of the control unit up against the DIN rail.
2. Push the unit upwards.
3. Tip the unit into place. See fig. 17.
Warning
CU 211 and CU 212 must not be used for other
purposes than the ones specified.
Warning
TM04 3069 3608
Before installing CU 211 and CU 212, make sure
that the power supply has been switched off and
that it cannot be accidentally switched on.
The installation must be carried out by
authorized personnel in accordance with local
regulations.
All safety regulations must be observed on the
installation site.
Fig. 17 Mounting of CU 211 and CU 212
6.1 Location
Remove CU 211 and CU 212 in this way:
Enclosure
1. Push the unit upwards.
CU 211 and CU 212 have enclosure class IP20. In order to
reduce the pollution level to 2, CU 211 and CU 212 must be
installed in a protective enclosure with minimum IPX4 enclosure
class according to IEC 60529. The enclosure must be made of
fire retardant material.
2. Tip the unit free of the DIN rail.
Supply voltage:
Single-phase = 230 V +/–10 % 50/60 Hz
Three-phase = 400 V +/–10 % 50/60 Hz.
Ambient temperature
Supply current:
Maks. 250 mA. See also section 8. Overview
of terminals.
7. Electrical connection
Ambient temperature: –30 °C to +50 °C.
CU 211 and CU 212 must not be exposed to direct sunlight.
1
Installation altitude
2
3
4
5
6
CU 211 and CU 212 must be installed max. 2000 m above sea
level.
Warning
Do not install CU 211 and CU 212 in potentially
explosive environments.
If the controlled pumps are in potentially
explosive environments, CU 211 and CU 212 must
be used in combination with float switches.
CU 212
1
2
1
2
Float switches located in potentially explosive
environments must be connected via an EEx
barrier, such as Grundfos no. 96440300. The EEx
barrier itself must not be installed in potentially
explosive environments.
Equipment/material located in potentially
explosive environments must be approved for
this in each individual situation.
Likewise the cabling into potentially explosive
environments must be made according to current
regulations.
Note
Use EEx approved float switches, such as
Grundfos no. 96003332 or 96003695.
ON
7
8
Fig. 18 CU 212 with overview of terminals
22
DIP
1 2 3 4 5 6 7 8 9 10
TM04 3133 3808
English (GB)
6. Installation
English (GB)
8. Overview of terminals
The designations of the terminals refer to the wiring diagrams on the following pages.
Pos.
Terminal Description
Supply output for
level 1 and 2
Electrical data
Function
13-18 AC /
12 VDC
1
AC
1
1
Terminal for level 1
1
2
Terminal for level 2
2
G
Earth (GND) for
level 3 and 4
2
3
Terminal for level 3
2
4
Terminal for level 4
3
G
Frame connection
for S1-2 and T1-2
0V
3
S1
Terminal for motor
protector
5 V output
max. 0.5 mA
3
T1
Terminal for thermal 5 V output
circuit breaker
max. 2.2 mA
T1 is input from a thermal switch fitted inside
the pump.
3
S2
Terminal for motor
protector
5 V output
max. 0.5 mA
S2 only applies to two-pump systems;
otherwise the same as S1.
3
T2
Terminal for thermal 5 V uoutput
circuit breaker
max. 2,2 mA
T2 only applies to two-pump systems;
otherwise the same as T1.
5
H3
Teminal for NCcontact for high-level
alarm
5
H2
Frame connection
for high-level alarm
5
H1
Terminal for NOcontact for high-level
alarm
6
GA1
Terminal for NCcontact for common
alarm
6
GA2
Frame connection
for common alarm
6
GA3
Terminal for NOcontact for common
alarm
7
L1
7
L2/L
Supply input
400 V/230 V
7
L3/N
Supply input
400 V/230 V
Mains supply input.
In three-phase versions the rated voltage is
400 V on L1, L2 and L3.
In single-phase versions the rated voltage is
230 V on L and N.
8
CP1
Terminal for start/
stop of pump
8
P1
Terminal for start/
stop of pump 1
Max. 400 V
2A
P1 is an NO-contact designed for start and
stop of pump 1. Depending on the DIP switch
setting, the relay will close according to the
signals from the level inputs.
8
CP2
Terminal for start/
stop of pump
P2
Terminal for start/
stop of pump 2
8
Diagram
1 mA
The level 1 and 2 inputs are designed for either
AC or DC transmitters, such as electrodes or
float switches.
0V
5 V output
max. 0.5 mA
The level 3 and 4 inputs are designed for DC
transmitters, such as float switches. A max.
cable length of 100 metres is recommended.
S1 is input for alarm from overload relay.
Max 230 VAC
2A
Depending on the application and the DIP
switch setting, one of the level inputs can trip
the high-level alarm.
Max. 230 VAC
2A
All alarms trip the alarm relay.
Supply input. Only
400 V
three-phase version
Max. 400 V
2A
P2 only applies to two-pump systems;
otherwise the same as P1.
23
24
TM04 2724 2908
L
N
1F2
1K5
2
1
6
5
Pumpe 1
M
1~
4
3
250 mA
L
N
1
G
CU211.230.1
Input
AC
G
T1
3
4
For FLOAT switches
or REMOTE input
Motor 1
Thermal switch
S1
2
For FLOAT switches
or ELECTRODES
English (GB)
9. Wiring diagrams CU 211
9.1 CU 211, single-phase, inputs
TM04 2740 2908
L
N
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
CU211.230.1
output
English (GB)
9.2 CU 211, single-phase, outputs
25
GA1
GA2
GA3
H1
H2
H3
26
TM04 2726 2908
L
N
+
24 V -
1F2
1K5
2
1
6
5
Pumpe 1
M
1~
4
3
Pump
Sensor cable
P1-P5
Insulation
-OF F
1K5
Auto
reset
L
N
Supply
voltage
IO 111 Pumpe 1
Contactor
status
250 mA
-OFF
1
2
Alarm
relay
1F2
G
S1
CU 211.230.1
Input
AC
G
T1
3
4
For FLOAT switches
or REMOTE input
English (GB)
For FLOAT switches
or ELECTRODES
9.3 CU 211, single-phase, inputs from IO 111
TM04 2727 2908
L
N
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
O2
O1
Com
ln 1
1K5
CU 211.230.1
output
ln 2
H1
H2
H3
ln 4
GA 1
GA 2
GA 3
24 V
SMS modul
ln 3
N
Batt
L
English (GB)
1A
9.4 CU 211, single-phase, outputs for modem
27
1A
TM04 2725 2908
CP1
P1
Thermal Switch
Pump 1
1K5
1K5
AI 2/DI 2_IN
24 VS_2
IO 111 PUMPE 1
NO
COM Relay
Output
NC
24 VS_1
1F2
CU 211.230.1
output
AI 1 /DI 1_IN
GA 1
GA 2
GA 3
H3
GND
H1
H2
DI 3_IN
GENIbus
A Y B
A Y B
GENIbus
CIU 270
GND
28
DI 4_IN
N
L
GRM
English (GB)
L
N
9.5 CU 211, single-phase, outputs for CIU 270
TM04 2728 2908
1F2
1K5
2
1
6
5
Pumpe 1
M
3~
4
3
250 mA
L1
L1
N
L3
L2
L3
L2
1
G
1F2
S1
2
G
T1
3
English (GB)
4
For FLOAT switches
or REMOTE input
Motor 1
Thermal switch
CU 211.400.3
Input
AC
For FLOAT switches
or ELECTRODES
9.6 CU 211, three-phase, inputs
29
30
TM04 2729 2908
N
P1
1K5
CP1
Thermal Switch
Pump 1
1F2
CU 211.400.3
output
English (GB)
L3
L2
L1
9.7 CU 211, three-phase, outputs
GA 1
GA 2
GA 3
H2
H3
H1
+
-
TM04 2730 2908
N
L3
L2
L1
24 V
1K5
2
1
6
5
Pumpe 1
M
3~
4
3
Pump
Sensor cable
-OF F
P 1– P 5
Insulation
1K5
Auto
reset
Supply
voltage
IO 111 Pumpe 1
Contactor
status
250 mA
L2
L1
L3
1
-OFF
Alarm
relay
G
1F2
CU 211.400.3
Input
AC
S1
2
G
T1
3
English (GB)
4
For FL OA T switches For FLO AT switche s
or EL ECTRODE S
or REMO TE input
9.8 CU 211, three-phase, inputs from IO 111
31
32
TM04 2731 2908
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
O2
O1
Com
ln 1
1K5
ln 2
CU 211.400.3
output
H1
H2
H3
ln 3
GA 1
GA 2
GA 3
ln 4
24 V
N
Batt
L
1A
-
+
1A
English (GB)
L3
L2
L1
N
9.9 CU 211, three-phase, outputs for modem
TM04 2741 2908
CP1
P1
Thermal Switch
Pump 1
1K5
1K5
AI 2/DI 2_IN
24 VS_2
IO 111 PUMPE 1
NO
COM Relay
Output
NC
24 VS_1
1F2
CU 211.230.1
output
AI 1 /DI 1_IN
GA 1
GA 2
GA 3
H3
GND
H1
H2
DI 3_IN
GENIbus
A Y B
A Y B
GENIbus
CIU 270
DI 4_IN
GND
L
N
N
L
English (GB)
GRM
9.10 CU 211, three-phase, outputs for CIU 270
33
34
1F2
1K5
TM04 2732 2908
L
N
2
1
4
3
6
5
Pumpe 2
2
1
Pumpe 1
1F3
1K6
M
1~
6
5
M
1~
4
3
250 mA
L
N
1
2
1F2
G
G
Thermal switch
1F3
T1
3
T2
Motor 2
Thermal switch
S2
4
For FLOAT switches
or REMOTE input
Motor 1
S1
CU 212.230.1
Input
AC
For FLOAT switches
or ELECTRODES
English (GB)
10. Wiring diagrams CU 212
10.1 CU 212, single-phase, inputs
TM04 2733 2908
L
N
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
P2
1K6
CP2
Thermal Switch
Pump 2
1F3
CU 212.230.1
output
GA 1
GA 2
GA 3
English (GB)
10.2 CU 212, single-phase, outputs
35
H1
H2
H3
36
TM04 2734 2908
L
N
+
24 V -
1F2
1K5
2
1
4
3
6
5
Pump
Sensor cable
Pumpe 2
2
1
Pumpe 1
1F3
1K6
M
1~
6
5
M
1~
4
3
Pump
Sensor cable
P1– P5
Insulation
-OFF
Contactor
status
Auto
reset
L
N
Supply
voltage
IO 111 Pumpe 1
1K5
250 mA
1
2
-OFF
Alarm
relay
G
4
T2
Contactor
status
S2
1K6
1F3
3
Auto
reset
Supply
voltage
P1 – P5
IO 111 Pumpe 2
Insulation
-OF F
1F2
S1
T1
G
CU 212.230.1
Input
AC
For FLOAT switches
or REMOTE input
-OFF
Alarm
relay
English (GB)
For FLOAT switches
or ELECTRODES
10.3 CU 212, single-phase, inputs from IO 111
TM04 2735 2908
L
N
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
CP2
1K6
P2
Thermal Switch
Pump 2
1F3
O2
O1
Com
ln 1
1K5
H1
H2
H3
ln 3
ln 4
GA 1
GA 2
GA 3
24 V
SMS modul
ln 2
1K6
CU 212.230.1
output
N
Batt
L
1A
-
+
English (GB)
1A
10.4 CU 212, single-phase, outputs for modem
37
TM04 2742 2908
Thermal Switch
Pump 1
CP2
P2
Thermal Switch
Pump 2
1K6
Relay
Output
1K6
IO111 PUMPE 1
NO
Com
NC
24 VS_1
1K5
AI 1/DI1_IN
CP1
P1
1K5
1F3
24 VS_2
1F2
AI 2/DI 2_IN
CU 212.230.1
output
GA 1
GA 2
H1
H2
H3
GND
IO111 PUMPE 2
A Y B
GEN Ibus
L
A Y B
N
GENIbus
A Y B
GENIbus
CIU 270
GA 3
GND
DI 4_IN
38
DI 3_IN
GRM
English (GB)
L
N
10.5 CU 212, single-phase, outputs for CIU 270
TM04 2736 2908
1F2
1K5
M
3~
4
3
6
5
1F3
1K6
Pumpe 1
2
1
M
3~
4
3
6
5
Pumpe 2
2
1
250 mA
L1
L1
N
L3
L2
L3
L2
1
2
G
1F2
G
1F3
T1
3
T2
English (GB)
Motor 2
Thermal switch
S2
4
For FLOAT switches
or REMOTE input
Motor 1
Thermal switch
S1
CU 212.400.3
Input
AC
For FLOAT switches
or ELECTRODES
10.6 CU 212, three-phase, inputs
39
40
TM04 2737 2908
N
P1
1K5
CP1
Thermal Switch
Pump 1
1F2
P2
1K6
CP2
Thermal Switch
Pump 2
1F3
CU 212.400.3
output
English (GB)
L3
L2
L1
10.7 CU 212, three-phase, outputs
GA 2
GA 3
GA 1
H3
H1
H2
+
-
1F3
1K5
TM04 2738 2908
L3
L2
L1
N
24 V
2
1
4
3
6
5
Pump
Sensor cable
Pumpe 2
2
1
Pumpe 1
1F3
1K6
M
3~
6
5
M
3~
4
3
Pump
Sensor cable
P1 – P5
Insulation
-OFF
Contactor
status
Auto
reset
Supply
voltage
IO 111 Pumpe 1
1K5
250 mA
L3
L2
L1
1
-OFF
Alarm
relay
G
S1
2
G
P1– P5
4
T2
Auto
reset
Supply
voltage
IO 111 Pumpe 2
Contactor
status
S2
1K6
1F3
T1
3
For FLOAT switches
or ELETRODES
Insulation
-OF F
1F2
CU 212.400.3
Input
AC
For FLOAT switches
or ELETRODES
-OFF
English (GB)
Alarm
relay
10.8 CU 212, three-phase, inputs from IO 111
41
42
TM04 2739 2908
1K5
CP1
P1
Thermal Switch
Pump 1
1F2
P2
1K6
CP2
Thermal Switch
Pump 2
1F3
O2
O1
Com
In1
1K5
H1
H2
H3
In3
In 4
GA 1
GA 2
GA 3
24V
SMS modul
In 2
1K6
CU 212.400.3
output
N
Batt
L
1A
-
+
1A
-
+
English (GB)
L3
L2
L1
N
10.9 CU 212, three-phase, outputs for modem
TM04 2743 2908
CP1
P1
Thermal Switch
Pump 1
1K5
P2
1K6
CP2
Thermal Switch
Pump 2
1F3
1K5
24VS_1
IO 111 PUMPE 1
NO
Relay
Com Output
NC
AI 1/DI 1_IN
1F2
1K6
AI 2/DI 2_IN
CU 212.400.3
output
GA 1
GA 2
GA 3
DI 4_IN
H1
H1
H1
DI 3_IN
CIU 270
GND
L
A Y B
GENIbus
A Y B
IO 111 PUMPE 2
N
GENIbus
A Y B
GENIbus
GND
L3
L2
L1
N
English (GB)
GRM
10.10 CU 212, three-phase, outputs for CIU 270
43
24VS_2
English (GB)
11. Maintenance
CU 211 and CU 212 require no maintenance. CU 211 and CU 212
may only be cleaned with a dustless cloth.
12. Service
CU 211 and CU 212 cannot be serviced. In case of faults in the
control unit, replace it.
13. Disposal
This product or parts of it must be disposed of in an
environmentally sound way:
1. Use the public or private waste collection service.
2. If this is not possible, contact the nearest Grundfos company
or service workshop.
Subject to alterations.
44
45
46
Estonia
Latvia
Slovenia
Bombas GRUNDFOS de Argentina S.A.
Ruta Panamericana km. 37.500 Lote 34A
1619 - Garin
Pcia. de Buenos Aires
Phone: +54-3327 414 444
Telefax: +54-3327 411 111
GRUNDFOS Pumps Eesti OÜ
Peterburi tee 92G
11415 Tallinn
Tel: + 372 606 1690
Fax: + 372 606 1691
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Deglava biznesa centrs
Augusta Deglava ielā 60, LV-1035, Rīga,
Tālr.: + 371 714 9640, 7 149 641
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GRUNDFOS d.o.o.
Šlandrova 8b, SI-1231 Ljubljana-Črnuče
Phone: +386 1 568 0610
Telefax: +386 1 568 0619
E-mail: [email protected]
Finland
Lithuania
South Africa
Australia
OY GRUNDFOS Pumput AB
Mestarintie 11
FIN-01730 Vantaa
Phone: +358-3066 5650
Telefax: +358-3066 56550
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Tel: + 370 52 395 430
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Parc d’Activités de Chesnes
57, rue de Malacombe
F-38290 St. Quentin Fallavier (Lyon)
Tél.: +33-4 74 82 15 15
Télécopie: +33-4 74 94 10 51
GRUNDFOS Pumps Sdn. Bhd.
7 Jalan Peguam U1/25
Glenmarie Industrial Park
40150 Shah Alam
Selangor
Phone: +60-3-5569 2922
Telefax: +60-3-5569 2866
Spain
GRUNDFOS GMBH
Schlüterstr. 33
40699 Erkrath
Tel.: +49-(0) 211 929 69-0
Telefax: +49-(0) 211 929 69-3799
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Service in Deutschland:
e-mail: [email protected]
México
GRUNDFOS AB
Box 333 (Lunnagårdsgatan 6)
431 24 Mölndal
Tel.: +46(0)771-32 23 00
Telefax: +46(0)31-331 94 60
Представительство ГРУНДФОС в
Минске
220123, Минск,
ул. В. Хоружей, 22, оф. 1105
Тел.: +(37517) 233 97 65,
Факс: +(37517) 233 97 69
E-mail: [email protected]
Greece
Netherlands
GRUNDFOS Hellas A.E.B.E.
20th km. Athinon-Markopoulou Av.
P.O. Box 71
GR-19002 Peania
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Telefax: +0030-210-66 46 273
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Hong Kong
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BiH-71000 Sarajevo
Phone: +387 33 713 290
Telefax: +387 33 659 079
e-mail: [email protected]
GRUNDFOS Pumps (Hong Kong) Ltd.
Unit 1, Ground floor
Siu Wai Industrial Centre
29-33 Wing Hong Street &
68 King Lam Street, Cheung Sha Wan
Kowloon
Phone: +852-27861706 / 27861741
Telefax: +852-27858664
GRUNDFOS Netherlands
Veluwezoom 35
1326 AE Almere
Postbus 22015
1302 CA ALMERE
Tel.: +31-88-478 6336
Telefax: +31-88-478 6332
E-mail: [email protected]
GRUNDFOS Pumps Pty. Ltd.
P.O. Box 2040
Regency Park
South Australia 5942
Phone: +61-8-8461-4611
Telefax: +61-8-8340 0155
Austria
GRUNDFOS Pumpen Vertrieb
Ges.m.b.H.
Grundfosstraße 2
A-5082 Grödig/Salzburg
Tel.: +43-6246-883-0
Telefax: +43-6246-883-30
Belgium
N.V. GRUNDFOS Bellux S.A.
Boomsesteenweg 81-83
B-2630 Aartselaar
Tél.: +32-3-870 7300
Télécopie: +32-3-870 7301
Belorussia
Brazil
BOMBAS GRUNDFOS DO BRASIL
Av. Humberto de Alencar Castelo Branco,
630
CEP 09850 - 300
São Bernardo do Campo - SP
Phone: +55-11 4393 5533
Telefax: +55-11 4343 5015
Germany
Croatia
GRUNDFOS CROATIA d.o.o.
Cebini 37, Buzin
HR-10010 Zagreb
Phone: +385 1 6595 400
Telefax: +385 1 6595 499
www.grundfos.hr
Czech Republic
GRUNDFOS s.r.o.
Čajkovského 21
779 00 Olomouc
Phone: +420-585-716 111
Telefax: +420-585-716 299
Denmark
GRUNDFOS DK A/S
Martin Bachs Vej 3
DK-8850 Bjerringbro
Tlf.: +45-87 50 50 50
Telefax: +45-87 50 51 51
E-mail: [email protected]
www.grundfos.com/DK
Taiwan
GRUNDFOS Pumps (Taiwan) Ltd.
7 Floor, 219 Min-Chuan Road
Taichung, Taiwan, R.O.C.
Phone: +886-4-2305 0868
Telefax: +886-4-2305 0878
Norway
Turkey
GRUNDFOS Hungária Kft.
Park u. 8
H-2045 Törökbálint,
Phone: +36-23 511 110
Telefax: +36-23 511 111
GRUNDFOS Pumper A/S
Strømsveien 344
Postboks 235, Leirdal
N-1011 Oslo
Tlf.: +47-22 90 47 00
Telefax: +47-22 32 21 50
GRUNDFOS Pumps India Private Limited
118 Old Mahabalipuram Road
Thoraipakkam
Chennai 600 096
Phone: +91-44 2496 6800
GRUNDFOS Pumps (Shanghai) Co. Ltd.
50/F Maxdo Center No. 8 XingYi Rd.
Hongqiao development Zone
Shanghai 200336
PRC
Phone: +86-021-612 252 22
Telefax: +86-021-612 253 33
GRUNDFOS Pumpen AG
Bruggacherstrasse 10
CH-8117 Fällanden/ZH
Tel.: +41-1-806 8111
Telefax: +41-1-806 8115
Hungary
India
China
Switzerland
Thailand
Grundfos Bulgaria EOOD
Slatina District
Iztochna Tangenta street no. 100
BG - 1592 Sofia
Tel. +359 2 49 22 200
Fax. +359 2 49 22 201
email: [email protected]
GRUNDFOS Canada Inc.
2941 Brighton Road
Oakville, Ontario
L6H 6C9
Phone: +1-905 829 9533
Telefax: +1-905 829 9512
New Zealand
Sweden
GRUNDFOS Pumps NZ Ltd.
17 Beatrice Tinsley Crescent
North Harbour Industrial Estate
Albany, Auckland
Phone: +64-9-415 3240
Telefax: +64-9-415 3250
Bulgaria
Canada
Bombas GRUNDFOS de México S.A. de
C.V.
Boulevard TLC No. 15
Parque Industrial Stiva Aeropuerto
Apodaca, N.L. 66600
Phone: +52-81-8144 4000
Telefax: +52-81-8144 4010
Bombas GRUNDFOS España S.A.
Camino de la Fuentecilla, s/n
E-28110 Algete (Madrid)
Tel.: +34-91-848 8800
Telefax: +34-91-628 0465
Indonesia
PT GRUNDFOS Pompa
Jl. Rawa Sumur III, Blok III / CC-1
Kawasan Industri, Pulogadung
Jakarta 13930
Phone: +62-21-460 6909
Telefax: +62-21-460 6910 / 460 6901
Ireland
GRUNDFOS (Ireland) Ltd.
Unit A, Merrywell Business Park
Ballymount Road Lower
Dublin 12
Phone: +353-1-4089 800
Telefax: +353-1-4089 830
Italy
GRUNDFOS Pompe Italia S.r.l.
Via Gran Sasso 4
I-20060 Truccazzano (Milano)
Tel.: +39-02-95838112
Telefax: +39-02-95309290 / 95838461
Japan
GRUNDFOS Pumps K.K.
Gotanda Metalion Bldg., 5F,
5-21-15, Higashi-gotanda
Shiagawa-ku, Tokyo
141-0022 Japan
Phone: +81 35 448 1391
Telefax: +81 35 448 9619
Korea
GRUNDFOS Pumps Korea Ltd.
6th Floor, Aju Building 679-5
Yeoksam-dong, Kangnam-ku, 135-916
Seoul, Korea
Phone: +82-2-5317 600
Telefax: +82-2-5633 725
Poland
GRUNDFOS Pompy Sp. z o.o.
ul. Klonowa 23
Baranowo k. Poznania
PL-62-081 Przeźmierowo
Tel: (+48-61) 650 13 00
Fax: (+48-61) 650 13 50
Portugal
Bombas GRUNDFOS Portugal, S.A.
Rua Calvet de Magalhães, 241
Apartado 1079
P-2770-153 Paço de Arcos
Tel.: +351-21-440 76 00
Telefax: +351-21-440 76 90
România
GRUNDFOS (Thailand) Ltd.
92 Chaloem Phrakiat Rama 9 Road,
Dokmai, Pravej, Bangkok 10250
Phone: +66-2-725 8999
Telefax: +66-2-725 8998
GRUNDFOS POMPA San. ve Tic. Ltd. Sti.
Gebze Organize Sanayi Bölgesi
Ihsan dede Caddesi,
2. yol 200. Sokak No. 204
41490 Gebze/ Kocaeli
Phone: +90 - 262-679 7979
Telefax: +90 - 262-679 7905
E-mail: [email protected]
Ukraine
ТОВ ГРУНДФОС УКРАЇНА
01010 Київ, Вул. Московська 8б,
Тел.:(+38 044) 390 40 50
Фах.: (+38 044) 390 40 59
E-mail: [email protected]
United Arab Emirates
GRUNDFOS Gulf Distribution
P.O. Box 16768
Jebel Ali Free Zone
Dubai
Phone: +971-4- 8815 166
Telefax: +971-4-8815 136
GRUNDFOS Pompe România SRL
Bd. Biruintei, nr 103
Pantelimon county Ilfov
Phone: +40 21 200 4100
Telefax: +40 21 200 4101
E-mail: [email protected]
United Kingdom
Russia
U.S.A.
ООО Грундфос
Россия, 109544 Москва, ул. Школьная
39
Тел. (+7) 495 737 30 00, 564 88 00
Факс (+7) 495 737 75 36, 564 88 11
E-mail [email protected]
GRUNDFOS Pumps Corporation
17100 West 118th Terrace
Olathe, Kansas 66061
Phone: +1-913-227-3400
Telefax: +1-913-227-3500
Usbekistan
Serbia
Представительство ГРУНДФОС в
Ташкенте
700000 Ташкент ул.Усмана Носира 1-й
тупик 5
Телефон: (3712) 55-68-15
Факс: (3712) 53-36-35
GRUNDFOS Predstavništvo Beograd
Dr. Milutina Ivkovića 2a/29
YU-11000 Beograd
Phone: +381 11 26 47 877 / 11 26 47 496
Telefax: +381 11 26 48 340
GRUNDFOS Pumps Ltd.
Grovebury Road
Leighton Buzzard/Beds. LU7 8TL
Phone: +44-1525-850000
Telefax: +44-1525-850011
Singapore
GRUNDFOS (Singapore) Pte. Ltd.
24 Tuas West Road
Jurong Town
Singapore 638381
Phone: +65-6865 1222
Telefax: +65-6861 8402
Addresses revised 29.09.2010
Grundfos companies
Argentina
Being responsible is our foundation
Thinking ahead makes it possible
Innovation is the essence
96891528 0211
Repl. 96891528 1110
ECM: 1071415
www.grundfos.com
GB
The name Grundfos, the Grundfos logo, and the payoff Be–Think–Innovate are registrated trademarks
owned by Grundfos Management A/S or Grundfos A/S, Denmark. All rights reserved worldwide.